M. Sloderbeck
Florida State University
33 Papers
315 Citations
M. Sloderbeck is an academic researcher from Florida State University. The author has contributed to research in topics: Electric power system & Hardware-in-the-loop simulation. The author has an hindex of 13, co-authored 33 publications. Previous affiliations of M. Sloderbeck include University of Alberta.
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Papers
A Megawatt-Scale Power Hardware-in-the-Loop Simulation Setup for Motor Drives
TL;DR: It is concluded that PHIL simulations at the megawatt power level are possible and may prove useful for validating models of drive systems in the future.
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Interfacing Issues in Real-Time Digital Simulators
Wei Ren,M. Sloderbeck,Michael Steurer,Venkata Dinavahi,Taku Noda,S Filizadeh,A. R. Chevrefils,Mahmoud Matar,R Iravani,Christian Dufour,Jean Belanger,M.O. Faruque,Kai Strunz,Juan A. Martinez +13 more
TL;DR: The current state-of-the-art in interfacing issues related to real-time digital simulators employed in the simulation of power systems and power-electronic systems are dealt with.
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Multifunctional megawatt scale medium voltage DC test bed based on modular multilevel converter (MMC) technology
Michael Steurer,Ferenc Bogdan,M. Bosworth,Omar Faruque,John Hauer,Karl Schoder,M. Sloderbeck,Dionne Soto,K. Sun,Manfred Winkelnkemper,Lukas Schwager,Pawel Blaszczyk +11 more
- 03 Mar 2015
TL;DR: In this article, the authors describe the entire system in detail, including the advanced current and voltage control concepts along with the state of the art digital control hardware, and demonstrate the performance of the system under dynamic conditions and provide comparison with simulations obtained from a corresponding controller hardware-in-the-loop setup which is also described in the paper.
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Thermo-electric co-simulation on geographically distributed real-time simulators
M. Omar Faruque,M. Sloderbeck,Michael Steurer,Venkata Dinavahi +3 more
- 26 Jul 2009
TL;DR: Simulation results corroborate the fact that despite this latency, the thermo-electric co-simulation on geographically distributed real-time simulators can be performed with sufficient accuracy and stability.
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Testing a 5 MW high-temperature superconducting propulsion motor
S. Woodruff,H. Boenig,Ferenc Bogdan,Tom Fikse,L. Petersen,M. Sloderbeck,G. Snitchler,Michael Steurer +7 more
- 27 Jul 2005
TL;DR: A prototype marine propulsion motor manufactured by American Superconductor Corporation has been tested in the advanced test facility at the Center for Advanced Power Systems at Florida State University as mentioned in this paper, where the rotor of this 5 MW synchronous machine is constructed of high-temperature superconducting wire; the three-phase stator is of conventional wire.
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